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10. DESCRIPTION OF PROPOSED CONSTRUCTION Various energy conservation projects including insulation, weatherstripping, window/door alterations, load attentuation, automatic controls, energy monitoring and control systems, improvement and/or replacement of inefficient mechanical, electrical and heating systems, economizers, solid waste heat recovery systems and automation of coal plants

11. REQUIREMENT:

PROJECT: Construction and corrective measures at various installations to effect energy conservation.

REQUIREMENT: This work is required to reduce energy consumption and ease the adverse impact of the energy crisis. The continuing energy shortage and need to reduce costs make conservation measures of paramount importance. Various modifications to facilities and electro-mechanical systems will be made. Scopes of work at individual installations vary and are based on the least costly means for maximum reduction of energy use. Environmental protective measures are included.

CURRENT SITUATION: Energy is being used inefficiently because of original facilities design, present operating conditions, technical obsolesence and

age.

IMPACT IF NOT PROVIDED: Army installations will continue to use energy at less than optimum rates and the goal of reducing energy consumption will not be realized.

DD DEC
1 DEC 1391

90-267 O-82--11

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This project is required to conserve fuel oil by installation
of a Heat Recovery Incinerator facility. The facility will
consist of three solid waste, controlled air incinerators,
complete with heat recovery boilers. Each incinerator will be
capable of burning 20 tons per day of solid waste. The steam
generated will be connected to the adjacent steam distribution
system of Central Energy Plant 610. The project will provide
for a building to house the incinerators, necessary conveyors,
hoppers, shredders, ash removal system, piping and supporting
facilities to provide a complete and usable system. The instal-
lation will significantly reduce future landfill requirements.
The estimated first year savings is $787,000. The amortization
period is 5.3 years. The estimated MRTU energy savings per year
per thousand dollars project cost ratio is 37.

MAY

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This project is required to conserve coal and fuel oil by
installation of automatic heating controls for 2.2 million
square feet in 111 buildings in the Hanau community. The
installation will be complete with sensors, motorized valves
and wiring, outdoor weatherstats, time clocks for night and
weekend temperture setback, and individual thermostatic radiator
valves. The estimated first year savings is $980,000.
amortization period is 1.9 years. The estimated MBT energy
savings per year per thousand dollars project cost ratio is 46.

The

1,850

Baumholder (PN 86)

Temperature Controls

This project is required to conserve coal and fuel oil by
installation of automatic heating controls for 1.9 million
square feet in 117 buildings in the Baumholder community. The
installation will be complete with sensors, motorized valves and
wiring, outdoor weatherstats, time clocks for night and weekend
temperature setback, and individual thermostatic radiator valves.
The estimated first year savings is $708,000. The amortization
period is 1.8 years. The estimated MBT energy savings per year
per thousand dollars project cost ratio is 48.

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1,250

1,850

This project is required to conserve coal and fuel oil by installing 861,120 square feet of batt insulation in ceilings and replacing 3,323 manual valves with thermostatic radiator valves in 90 buildings at Wildflecken Training Area. The estimated first year savings is $788,000. The amortization period is 2.3 years. The estimted MBTJ energy savings per year per thousand dollars project cost ratio is 44.

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This project is required to conserve fuel oil, coal, and
electrical energy by extending the existing energy monitoring
and control system at Campbell Barracks. The system will be
expanded to include controls in 60 boiler plants, 18 transformer
stations, 10 uninterrupted power supplies, 15 air conditioning
plants, 5 domestic hot water systems and local sensors in 100
building sections throughout the post. The project will provide
additional data transmission systems, ripple control trans-
mitters and receivers, central processor with field interface
devices and local controls and sensors. The project will provide
for temperature set back during unoccupied periods, control of
domestic hot water, boiler flue gas and oxygen control, electrical
and heating demand control, automatic load shedding, duty cycle,
humidity control, and start/stop control. The estimated first
year savings is $701,000. The amortization period is 1.6 years.
The estimated MBTU energy savings per year per thousand dollars
project cost ratio is 70.

Bad Kissingen

Automatic Boiler Plant

1,650

(PN 710)

This project is required to conserve fuel oil, coal and manpower at Daley Barracks (Bldg 8) by replacing eleven existing hand fired coal boilers and one existing curb-side oil boiler with six new, coal fired boilers equipped with automatic coal feed and ash removal systems, and piping. Electrical and structural modifications will be made to accommodate the new installation. The heating plant in Building 8 is more than 40 years old and has become very inefficient and can no longer meet the requirements without supplemental heat from the curb side oil boiler. Reduction in manpower requirements will also be realized. The estimated first year savings is $392,000. The amortization period is 4.2 years. The estimated MBT energy savings per year per thousand dollars project cost ratio is 39.

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